Klaus Blaum
Precision Tests of Fundamental Interactions and Their Symmetries using Exotic Ions in Penning Traps
Date & heure
06/15/22 – 13H45
Lieu
Collègue de France
Accueil
An overview is given on recent mass and g-factor measurements with extreme precision on single or few cooled ions stored in Penning traps. On the one hand, mass measurements provide crucial information for atomic, nuclear and neutrino physics as well as for testing fundamental interactions and their symmetries. On the other hand, g-factor measurements of the bound electron in highly charged hydrogen-like ions allow for the determination of fundamental constants and for constraining Quantum Electrodynamics. For example, the most stringent test of CPT symmetry in the baryonic sector could be performed by mass comparison of the antiproton with H- and the knowledge of the electron atomic mass could be improved by a factor of 13.
Magnus Schlösser
, Tritium Laboratory Karlsruhe (TLK), Institute of Astroparticle Physics (IAP), Karlsruhe Institute of Technology (KIT)
Direct neutrino-mass measurements – current and next generations
Anders Sørensen
Niels Bohr Institute, University of Copenhagen
Quantum information processing with emitters strongly coupled to photonic waveguide
Christine Silberhorn
Paderborn University
Scaling photonic systems for quantum information processing
Jonathan Pritchard
University of Strathclyde
Quantum computation and optimisation using neutral atom arrays